JPH0237458Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Field of Industrial Application) This invention relates to a pipe bender, and more specifically, to an improvement of a rotary pipe bender.

(Prior Art and its Problems) Conventionally, there is a pipe bender as shown in FIG. 3, which can mechanically bend pipes such as round pipes and square pipes.

That is, the rotary pipe bender 51 shown in FIG. 3 includes a mold roll 52 having an arcuate mold groove 52a formed on its periphery, and a mold groove of a similar shape that is continuous with the mold groove 52a of the mold roll 52. 53a, which supports and guides the straight portion of the pipe P to be bent; and a clamp female, which is fixed to the mold roll 52 and has a mold groove of the same shape as the mold groove 52a of the mold roll 52. It is mainly composed of a mold 54 and a male clamp mold 55 which forms a mold groove similar to the female clamp mold 54 and grips and fixes the end of the pipe P together with the female clamp mold 54,
The pipe P is passed through the pressure mold 53, and in this state, the end of the pipe P is gripped and fixed by the clamp female mold 54 and the clamp male mold 55, and then the mold roll 5
2 in the direction A, the pipe P whose one end is fixed by the female clamp 54 and the male clamp 55 is rotated along the mold groove 52a of the mold roll 52 together with the female clamp 54 and the male clamp 55. The pipe P is pulled into the mold groove 5 of the mold roll 52.
It is bent and formed into a tensile shape along 2a. still,
During this bending process, wrinkles occur at the joint between the bent portion and the straight pipe portion of the pipe P, so in order to prevent the occurrence of wrinkles, a wrinkle prevention mold 56 is installed inside the pressure mold 53 in a facing manner. The pressing force of the anti-wrinkle mold 56 and the pressure mold 53 prevents wrinkles from forming in the straight pipe portion and the bent portion. In addition, a core metal mold 57 is fitted into the inner wall surface of the pipe P near the starting point of the pipe P from the straight pipe part to the bent part. Because of the pressing, deformation of the bent portion of the pipe P is prevented. In this way, prevention of deformation of the bent portion of the pipe P during bending is taken into consideration, but during bending, the pipe P receives tensile force at the outer periphery of the bent portion and compressive force at the inner periphery, so the cross section of the bent portion is inevitably deformed, and various factors such as the accuracy of the members constituting each part of the rotary pipe bender 51, the thickness of the pipe P, the material, the pipe diameter, the surface accuracy, the bending angle, and the machining capacity of the pipe bender 51 as a whole, etc. Therefore, there was a problem in that it was extremely difficult to bend the bent portion into a cross-sectional shape similar to that of the straight pipe portion. Furthermore, as a device similar to the rotary pipe bender 51 shown in FIG.
Devices such as the one described in Publication No. 21611 that widen pipes using liquid are known, but even with these devices, it is difficult to ensure accurate bending of pipes. Additionally, conventional devices have the disadvantage of being complex.

(Means for Solving the Problems) The present invention has been devised in view of the above conventional problems, and is a pipe bender that can avoid deformation of the bent part as much as possible when bending a pipe with a pipe bender. The purpose is to provide a mold roll having an arc-shaped mold groove for bending and forming a pipe, and a straight pipe portion of the pipe having a straight mold groove continuous with the mold groove of the mold roll. a pressure mold that supports and guides the pipe, a clamp mold that rotates while gripping and fixing the end of the pipe as the mold roll rotates, and a clamp mold that is installed parallel to the pressure mold and fitted into the inner wall surface of the pipe. The pipe bender is comprised of a core metal mold that is connected to an external hydraulic pressure generator and has a conduit that supplies pressurized liquid into the pipe, and the end of the pipe is clamped by rotation of the mold roll. When the pipe is stretched by the mold and bent along the mold grooves of the mold roll, the pressure of the pressure liquid supplied into the pipe through the core metal mold in response to the processing stress that accompanies the progress of the bending process. The hydraulic pressure generating device is provided with an adjustment mechanism capable of increasing the pressure.

(Function) When the mold roll is rotated, the pipe that is bent and formed along the mold groove of this mold roll is supported and guided by the pressure mold, and is bent into male and female clamp molds that rotate together with the mold roll. It is stretched and bent along the mold grooves of the mold roll. Following the progress of the bending process, pressure fluid is flowed into the pipe from an external hydraulic pressure generator through the conduit of the core metal mold fitted into the inner wall surface of the pipe. Therefore, the inner wall surface of the bent portion of the pipe is pressed outward and deformation due to bending is prevented. Moreover, in response to the increase in processing stress as the bending process progresses, increased pressure fluid is supplied from the hydraulic pressure generator into the pipe, so that the internal pressure in response to the processing stress of the bending process is reduced. deformation at the bent portion of the pipe is prevented.

(Example) Hereinafter, an example of the present invention will be described based on the drawings.

FIG. 1 shows the arrangement of parts of the rotary pipe bender of the present invention, in which a mold roll 1 has a mold groove formed on its outer periphery into which a pipe P can fit, and a pressure mold 2 has a similar continuous mold groove. The anti-wrinkle mold 3 is provided to face the pressure mold 2, and together with the pressure mold 2 presses and supports the straight pipe portion of the pipe P. or,
At the end of the pipe P, a female clamp mold 4 fixed to the mold roll 1 and a male clamp mold 5 provided opposite to each other on the outside thereof are arranged. is formed with a mold groove capable of gripping and fixing the pipe P, and the end of the pipe P is gripped and fixed, and as the mold roll 1 rotates, the pipe P is pulled and bent from the pressure mold 2, This configuration is similar to the conventional example shown in FIG. 3 above. Particularly, what is new about this example is that the structure of the core metal mold 6, which is fitted into the pipe P so as to be in contact with the inner wall surface of the pipe P used during the bending process of the pipe P, is devised. That is, to explain the main part of this core metal mold 6 in an enlarged manner in FIG. A conduit 6a is formed along the conduit 6a, and the distal end of the conduit 6a is an opening opening outward, and the distal end of a nozzle portion 7 is communicated with the other end. That is, a nozzle part 7 is fitted into a recess provided at the front end of the core metal mold 6, and a guide hole 7a communicating with the conduit 6a is formed in the center of the nozzle part 7.
Furthermore, the front end of this nozzle part 7 is disposed in contact with the tip of a holding tube 8 formed to have an outer diameter that almost matches the inner diameter of the pipe P. A conduit 8a is formed along its longitudinal direction, and this conduit 8a is connected to the nozzle portion 7.
The conduit 6 of the core metal mold 6 is connected to the conduit 7a of the core metal mold 6.
It is connected to a. Furthermore, a seal packing 9 is wrapped around the outer periphery of the abutment position between the rear end of the holding tube 8 and the front end of the nozzle section 7, and the outer periphery of the seal packing 9 is connected to the inner wall surface of the pipe P. This ensures watertightness of the contact area. Further, a spacer 10 is installed in a wound manner near the seal packing 9 to further ensure watertightness. On the other hand, at the tip of the pipe P, which is the workpiece,
In this example, a plug member 1 formed in a bowl-shaped cross-section from the outside is used to seal the opening at the tip.
1 is fitted, and the plug member 11 is attached to the end of the pipe P in a liquid-tight manner by means such as welding. Further, the front end of the conduit 8a of the holding tube 8 is communicated with an external hydraulic pressure generating device (not shown),
Pressure oil P ₂ pressurized by this oil pressure generator flows into the conduit 8 . This external hydraulic pressure generator has a hydraulic adjustment mechanism that feeds back the processing stress during bending and is controlled according to a program in response to the feedback processing stress. The structure is controlled so that hydraulic pressure can be generated in accordance with the processing stress during bending.

Therefore, the end of the pipe P fitted between the pressure mold 2 and the anti-wrinkle mold 3 is gripped and fixed by the clamp female mold 4 and the clamp male mold 5, and the mold roll 1 is
As the clamp female mold 4 and the clamp male mold 5 are rotated in the direction A, the pipe P is bent in a tensile manner along the mold groove of the mold roll 1.
At this time, the bent portion of the pipe receives tensile force on its outer periphery and compressive force on its inner circumferential surface, so that the cross section of the bent portion tends to deform into a flat shape. Pressure oil P ₂ flows into the inner peripheral surface of the pipe P from the conduit 6a. The pressure oil P ₂ that has flowed in presses the inner circumferential surface of the pipe at the bent portion outward, thereby preventing deformation of the bent portion from the inside. Moreover, the pressure oil _P2 flowing into the pipe P through the conduit 6a is sealed in a liquid-tight manner by the plug member 11, the core metal mold 6, the seal packing 9, the spacer 10, etc.
It effectively acts as a pressing force on the inner wall surface of the pipe without leaking to the outside. Moreover, this pressure oil P ₂
In response to the processing stress that increases as the bending process progresses, the pressure oil P 2 is increased and supplied under control from an external hydraulic pressure generator, so that the pressure oil P ₂ is gradually increased in pressure as the bending process progresses. It is supplied into the pipe P, and from the beginning to the final stage of bending, the inner peripheral surface of the pipe is always pressed outward via the pressure oil _P2 , effectively preventing deformation at the bending part. .

(Effect of the invention) The pipe bender of the invention has a mold roll having an arc-shaped mold groove for bending the pipe, and a straight part of the pipe that has a straight mold groove continuous with the mold groove of the mold roll. a pressure mold that supports and guides the pipe, a clamp mold that rotates while gripping and fixing the end of the pipe as the mold roll rotates, and a clamp mold that is installed parallel to the pressure mold and fitted into the inner wall surface of the pipe. The pipe bender is comprised of a core metal mold that is connected to an external hydraulic pressure generator and has a conduit that supplies pressurized liquid into the pipe, and the end of the pipe is clamped by rotation of the mold roll. When the pipe is stretched by the mold and bent along the mold grooves of the mold roll, the pressure of the pressure liquid supplied into the pipe through the core metal mold in response to the processing stress that accompanies the progress of the bending process. By equipping the fluid pressure generating device with an adjustment mechanism capable of increasing the pressure, when the pipe is bent, the pressure fluid is increased in pressure and supplied into the pipe in response to the processing stress that accompanies the progress of the bending process. Therefore, the pipe is always pressed from inside, and deformation of the bent portion is effectively prevented.

[Brief explanation of drawings]

1 and 2 show an embodiment of the present invention,
Figure 1 is a component diagram of a rotary pipe bender, Figure 2 is an enlarged view of the main parts of the core metal mold in Figure 1, and Figure 3 is a diagram of a conventional rotary pipe bender.
It is a block diagram made to correspond to the figure. 1... Mold roll, 2... Pressure type, 3... Wrinkle prevention type, 4... Clamp female type, 5... Clamp male type,
6... Core metal mold, 6a... Conduit, 7... Nozzle part, 7a... Guide hole, 8... Holding tube, 8a... Conduit, 9... Seal packing, 10... Spacer, 11... Plug member.

Claims (1)

[Scope of utility model registration request] A mold roll having an arc-shaped mold groove for bending and forming a pipe, a pressure mold having a linear mold groove continuous with the mold groove of the mold roll and supporting and guiding a straight pipe portion of the pipe, and a pressure mold of the mold roll. A clamp type that rotates while gripping and fixing the end of the pipe as it rotates, and a clamp type that is installed parallel to the pressure type and is fitted into the inner wall surface of the pipe and is connected to an external hydraulic pressure generator and is connected to a pressure liquid. A pipe bender is comprised of a core metal mold equipped with a conduit for supplying water into the pipe, and the end of the pipe is pulled into a clamp mold by the rotation of the mold roll, and the end of the pipe is pulled into the mold groove of the mold roll. The hydraulic pressure generating device includes an adjustment mechanism capable of increasing the pressure of the pressure liquid supplied into the pipe through the core metal mold in response to the processing stress accompanying the progress of the bending process. A pipe bender characterized by being prepared for.